市場調查報告書

智慧電表的全球市場

Smart Electricity Meters

出版商 Global Industry Analysts, Inc. 商品編碼 335303
出版日期 內容資訊 英文 75 Pages
商品交期: 最快1-2個工作天內
價格
智慧電表的全球市場 Smart Electricity Meters
出版日期: 2020年09月01日內容資訊: 英文 75 Pages
簡介

本報告以智慧電表的全球市場為焦點,依美國,加拿大,日本,歐洲,亞太地區,中東,中南美等地區別檢驗·預測2013-2020年這段期間為對象之交易金額的轉變,再彙整市場現狀分析資料和72家大小參與企業之公司簡介等目前競爭環境相關的調查資訊。

第1章 簡介,調查方法,產品定義

  • 調查的可靠性和報告的限制
  • 免責聲明
  • 資料的解釋和報告水準
    • 定量技術與分析
  • 產品的定義和調查範圍

第2章 摘要整理

  • 產業概要
    • 智慧電表-可靠性高,容易使用,成本效率及能源效率佳
    • 成長推動要素的概要
    • 有助於全球性普及的智慧電表所具有複數優點
    • 實現先進的停電管理的智慧電表
    • 在配電自動化上倍受好評的智慧電表
    • 優待政策- 智慧電表普及的決定性因素
    • 全球市場預測
    • 競爭環境
    • 佔市場大半的Landis+Gyr,GE,Itron
    • 代表性有力智慧電表供給企業的全球勢力圖-全球製造設施概觀
    • 察覺與亞洲系企業的競爭激烈的有力供給企業
    • 因緊縮產品價格設定策略而動搖的智慧電表廠商
    • 因製造法制讓人眼花繚亂的變更而低落的智慧電表供應商的效率水準
    • 市場前幾名企業的技術力-新加入廠商對企業而言的重要課題
    • 阻礙智慧電表普及的主要問題點
  • 市場趨勢與推動要素
    • 劇增的能源消費量與非有效率的基礎設施 -強力成長推動要素
    • 主要的電力趨勢概論
    • 維繫市場成長的電力需求之全球性劇增
    • 有助於普及的電力產業之「物聯網(IoT)」評估提升
    • 智慧電網的引進擴大- 智慧電表的穩固投資報酬率檢驗案例
    • 智慧電網環境-輸配電基礎設施,通訊網路,運算平台的結構零件·系統一覽
    • 加速大規模引進智慧電表的下一代的智慧城市
    • 佔智慧電表安裝數大半的住宅部門
    • 工商業部門氣勢漸增的安裝數
    • 擴大的商業用不動產投資-主要機會指標
    • 高度測量基礎設施(AMI)的穩定需求成了市場的普及吉兆轉換到再生能源資源有助於擴大市場
    • 再生能源資源的轉換有助於擴大市場
    • 再生能源整合-高度測量基礎設施的嶄新利用法
    • 藉由整合火力發電電網的高度測量基礎設施來保證資源的最大利用
    • 核能發電計劃再開始意味著高度測量基礎設施市場新良機
    • 繼續帶來莫大成長機會的開發中國家
    • 中國-高度測量基礎設施全球市場發展的原動力
    • 有助於市場的電力產業自由化和民營化
    • 以有利的人口動態及都市化趨勢增勢的市場預測
  • 產品·技術概要
    • 簡介
    • 智慧電表的結構零件
    • 智慧電表的通訊途徑
    • 智慧電表的優點
    • 對電力經營者而言的優點
    • 對使用者而言的優點
  • 產品引進·銷售
  • 最新產業趨勢
  • 全球主要加入企業
  • 全球市場預測

第3章 市場

  • 美國
  • 加拿大
  • 日本
  • 歐洲
    • 法國
    • 義大利
    • 英國
    • 西班牙
    • 俄羅斯
    • 其他歐洲各國
  • 亞太地區
    • 中國
    • 其他亞太地區各國
  • 中東
  • 中南美
    • 巴西
    • 其他中南美各國

第4章 競爭環境

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目錄
Product Code: MCP-7018

Energy Wastage is Taking its Toll on the Environment. Smart Meters Being the Need of the Hour Will Reach $16.4 Billion by 2027

The global market for Smart Electricity Meters is expected to reach US$16.4 billion by the year 2027, trailing a post COVID-19 CAGR of 6.7% over the analysis period 2020 through 2027. Global carbon emissions are rising each year. The energy industry accounts for a sizable share of CO2 emissions highlighting the carbon intensity of electricity generation. Coal remains the worst polluting generating over 1,200 of CO2 per kWh. Over 60% of energy produced is wasted in transmission & consumption. Smart electricity meters are poised to witness robust adoption given their role in energy conservation & reducing wastages. Among the many benefits of smart meters are monitoring of electric system in real time & provision of responsive data for balancing electric loads; reduction of waste by forecasting energy demand more efficiently. A smart meter is an electronic device capable of monitoring usage of utility services, and share the data with utility providers. Using two way communication, smart meter makes records data at the usage point and transmits the information gathered back to the utility companies. The advanced metering infrastructure holds several merits over conventional metering and supports bi-directional communication. Smart meters are increasingly replacing traditional electric meters, mainly in developed countries, and enabling power system to undergo notable transformation in terms of efficiency and reliability. These devices provide utilities with the opportunity to exploit data to ensure efficient use of energy, reduce wastage, and minimize human intervention. Smart metering devices in homes deliver accurate readings and eliminate incorrect billing or irregularities. By monitoring gas, water or electricity consumption, these devices allow users to reduce consumption and save on utility bills.

Smart meters represent a revolutionary technology for utility companies that allow them to ensure efficient transmission and distribution while monitoring energy usage and efficiency. These meters integrate three primary components that include an electricity meter, processing unit and communication module. While the electricity meter measures power consumption and translates the readings into usable data, the processing unit processes and stores the data. In addition, the processing unit controls the electricity meter and the communication module. The communication module, usually found integrated into the smart meters or installed in external slots, facilitates the communication of meter data with the utility and the customer. Among the three components, the meter part is highly regulated one and in most cases needs to conform to a set of standards placed by regulatory authorities. The technology has gained extensive adoption among utilities and is receiving support from various countries. Governments are investing in smart metering infrastructure to gravitate towards smart grids and accommodate renewable energy. Smart meters technology is poised to experience large-scale installations in North America, Europe and Asia-Pacific, with the latter holding a key role in driving global adoption of smart meters. The increasing adoption of smart meters is attributed to their various benefits such as energy usage monitoring, energy saving, reduction in energy wastage, tab on power thefts and reduction in carbon emissions. Smart meters are increasingly replacing conventional meters and leading to notable transition towards digital technologies. These devices allow two-way communication to transmit data to utility companies for billing, monitoring and other purposes to ensure seamless supply of electricity, water or gas to consumers. Smart metering allows companies to deal with electricity theft, which results in heavy losses of around $90 billion annually. The technology has witnessed an impressive investment of around US$62 billion for associated infrastructure. These endeavors are anticipated to further drive adoption of smart meters in both developed and developing regions.

Smart meters rely on reliable and secure cellular connectivity for transmission of information to utilities. Cellular technology provides uninterrupted and effective connectivity to help utilities in connecting to smart meters. The launch of NB-IoT and LTE-M technologies is expected to further extend the deployment of smart meters to various areas. While high cost of smart meters is a major challenge, ongoing advances are anticipated to make the technology more affordable and drive adoption rates. In the coming years, smart meters are expected to drastically transform service delivery and help companies in enhancing consumer experience. The technology is likely to be exploited by companies for developing innovative business models on the basis of data offered by these devices. In addition, increasing adoption of the technology along with technological advancements are poised to reduce energy wastage and go a long way in supporting efforts to reduce carbon footprint and protect the environment. Smart meters are anticipated to play a decisive role in transforming the way the energy industry and utility companies work.

Competitors identified in this market include, among others,

  • ABB Ltd.
  • General Electric Company
  • Holley Technology UK Ltd.
  • Iskraemeco d.d.
  • Itron, Inc.
  • Landis+Gyr AG
  • Schneider Electric SA
  • Siemens AG

TABLE OF CONTENTS

I. INTRODUCTION, METHODOLOGY & REPORT SCOPE

II. EXECUTIVE SUMMARY

  • 1. MARKET OVERVIEW
    • Global Competitor Market Shares
    • Smart Electricity Meters Competitor Market Share Scenario Worldwide (in %): 2019 &
    • Impact of Covid-19 and a Looming Global Recession
  • 2. FOCUS ON SELECT PLAYERS
  • 3. MARKET TRENDS & DRIVERS
  • 4. GLOBAL MARKET PERSPECTIVE
    • TABLE 1: Smart Electricity Meters Global Market Estimates and Forecasts in US$ Million by Region/Country: 2020
    • TABLE 2: Smart Electricity Meters Market Share Shift across Key Geographies Worldwide: 2020 VS
    • TABLE 3: Residential (End-Use) Global Opportunity Assessment in US$ Million by Region/Country: 2020
    • TABLE 4: Residential (End-Use) Percentage Share Breakdown of Global Sales by Region/Country: 2020 VS
    • TABLE 5: Commercial (End-Use) Worldwide Sales in US$ Million by Region/Country: 2020
    • TABLE 6: Commercial (End-Use) Market Share Shift across Key Geographies: 2020 VS
    • TABLE 7: Industrial (End-Use) Global Market Estimates & Forecasts in US$ Million by Region/Country: 2020
    • TABLE 8: Industrial (End-Use) Market Share Breakdown by Region/Country: 2020 VS

III. MARKET ANALYSIS

  • GEOGRAPHIC MARKET ANALYSIS
  • UNITED STATES
    • Market Facts & Figures
    • US Smart Electricity Meters Market Share (in %) by Company: 2019 &
    • Market Analytics
    • TABLE 9: United States Smart Electricity Meters Latent Demand Forecasts in US$ Million by End-Use: 2020 to
    • TABLE 10: Smart Electricity Meters Market Share Breakdown in the United States by End-Use: 2020 VS
  • CANADA
    • TABLE 11: Canadian Smart Electricity Meters Market Quantitative Demand Analysis in US$ Million by End-Use: 2020 to
    • TABLE 12: Canadian Smart Electricity Meters Market Share Analysis by End-Use: 2020 VS
  • JAPAN
    • TABLE 13: Japanese Demand Estimates and Forecasts for Smart Electricity Meters in US$ Million by End-Use: 2020 to
    • TABLE 14: Smart Electricity Meters Market Share Shift in Japan by End-Use: 2020 VS
  • CHINA
    • TABLE 15: Chinese Demand for Smart Electricity Meters in US$ Million by End-Use: 2020 to
    • TABLE 16: Chinese Smart Electricity Meters Market Share Breakdown by End-Use: 2020 VS
  • EUROPE
    • Market Facts & Figures
    • European Smart Electricity Meters Market: Competitor Market Share Scenario (in %) for 2019 &
    • Market Analytics
    • TABLE 17: European Smart Electricity Meters Market Demand Scenario in US$ Million by Region/Country: 2018
    • TABLE 18: European Smart Electricity Meters Market Share Shift by Region/Country: 2020 VS
    • TABLE 19: European Smart Electricity Meters Addressable Market Opportunity in US$ Million by End-Use: 2020
    • TABLE 20: European Smart Electricity Meters Market Share Analysis by End-Use: 2020 VS
  • FRANCE
    • TABLE 21: Smart Electricity Meters Quantitative Demand Analysis in France in US$ Million by End-Use: 2020
    • TABLE 22: French Smart Electricity Meters Market Share Analysis: A 7-Year Perspective by End-Use for 2020 and
  • GERMANY
    • TABLE 23: Smart Electricity Meters Market in Germany: Annual Sales Estimates and Forecasts in US$ Million by End-Use for the Period 2020
    • TABLE 24: Smart Electricity Meters Market Share Distribution in Germany by End-Use: 2020 VS
  • ITALY
    • TABLE 25: Italian Demand for Smart Electricity Meters in US$ Million by End-Use: 2020 to
    • TABLE 26: Italian Smart Electricity Meters Market Share Breakdown by End-Use: 2020 VS
  • UNITED KINGDOM
    • TABLE 27: United Kingdom Demand Estimates and Forecasts for Smart Electricity Meters in US$ Million by End-Use: 2020 to
    • TABLE 28: Smart Electricity Meters Market Share Shift in the United Kingdom by End-Use: 2020 VS
  • REST OF EUROPE
    • TABLE 29: Rest of Europe Smart Electricity Meters Addressable Market Opportunity in US$ Million by End-Use: 2020
    • TABLE 30: Rest of Europe Smart Electricity Meters Market Share Analysis by End-Use: 2020 VS
  • ASIA-PACIFIC
    • TABLE 31: Smart Electricity Meters Quantitative Demand Analysis in Asia-Pacific in US$ Million by End-Use: 2020
    • TABLE 32: Asia-Pacific Smart Electricity Meters Market Share Analysis: A 7-Year Perspective by End-Use for 2020 and
  • REST OF WORLD
    • TABLE 33: Rest of World Smart Electricity Meters Market Quantitative Demand Analysis in US$ Million by End-Use: 2020 to
    • TABLE 34: Rest of World Smart Electricity Meters Market Share Analysis by End-Use: 2020 VS

IV. COMPETITION

  • Total Companies Profiled: 72